Exact (1 + 3 + 6)-dimensional cosmological-type solutions in gravitational model with Yang-Mills field, Gauss-Bonnet term and -term

Abstract

We consider 10-dimensional gravitational model with SO(6) Yang-Mills field, Gauss-Bonnet term and -term. We study so-called cosmological type solutions defined on product manifold M = R × R3 × K, where K is 6d Calabi-Yau manifold. By putting the gauge field 1-form to be coinciding with 1-form spin connection on K, we obtain exact cosmological solutions with exponential dependence of scale factors (upon t-variable), governed by two non-coinciding Hubble-like parameters: H >0, h, obeying H + 2 h ≠ 0. We also present static analogs of these cosmological solutions (for H ≠ 0, h ≠ H and H + 2 h ≠ 0). The islands of stability for both classes of solutions are outlined.